Research Abstract
- This theoretical study aims to explore the dynamics of a Casson
- nanofluid flowing through a biological tissue under the influence of a
- magnetic field, in the presence of an inclined circular cylindrical lymphatic
- vessel. The governing partial differential equations and their boundary
- conditions are transformed into a set of non-linear ordinary differential
- equations using appropriate similarity transformations. The problem is
- solved using the bvp4c function in MATLAB software, and the numerical
- results are presented graphically. The research investigates and visually
- depicts the impact of various parameters on the velocity of the nanofluid, its
- temperature, and the concentration of nanoparticles. These parameters
- encompass the magnetic field, porous medium, inclination angle,
- thermophoresis, thermal Grashof number, Eckert number, mass Grashof
- number, Casson parameter, and the curvature parameter. The study
- concludes that an increase in the value of the Casson parameter significantly
- elevates the NP concentration while concurrently reducing the temperature
- of the nanofluid. We also found that there is a decreasing trend in both the
- nanofluid temperature and the NP concentration. The two variables peak in
- the tissue and then drop close to the lymph channel wall.
Research Date
Research Department
Research File
Research Journal
Assiut University Journal of Multidisciplinary Scientific Research (AUNJMSR)
Research Year
2024
Research Pages
385-412